Publication detail

Theoretical Analyses of Drop Size in Impinging and Effervescent Liquid Jets

LEE, T. PARK, J. JEDELSKÝ, J.

English title

Theoretical Analyses of Drop Size in Impinging and Effervescent Liquid Jets

Type

article in a collection out of WoS and Scopus

Language

en

Original abstract

Impinging and effervescent injections are used to generate small droplets in fuel and other sprays. For example, multiple streams of fuel and oxidizers are injected at collision angles in rocket combustion chambers. Effervescent atomizers send both the liquid and air streams within the injector, and thus can be considered as an internal analog of liquid jets in co-flow of air. The interaction of the air and liquid enhances the final drop size for a similar reason. The drop size during atomization processes in various injection geometries has been considered by Lee and co-workers [1-5]. In this work, we apply the same theoretical basis to impinging and effervescent liquid jets.

English abstract

Impinging and effervescent injections are used to generate small droplets in fuel and other sprays. For example, multiple streams of fuel and oxidizers are injected at collision angles in rocket combustion chambers. Effervescent atomizers send both the liquid and air streams within the injector, and thus can be considered as an internal analog of liquid jets in co-flow of air. The interaction of the air and liquid enhances the final drop size for a similar reason. The drop size during atomization processes in various injection geometries has been considered by Lee and co-workers [1-5]. In this work, we apply the same theoretical basis to impinging and effervescent liquid jets.

Keywords in English

Theoretical Analyses; Drop Size; Effervescent atomizer

Released

08.06.2023

Publisher

AIAA AVIATION 2023 Forum

Location

San Diego, CA

Pages from–to

1–6

Pages count

6

BIBTEX


@inproceedings{BUT186920,
  author="Tae-Woo {Lee} and Jung Eun {Park} and Jan {Jedelský},
  title="Theoretical Analyses of Drop Size in Impinging and Effervescent Liquid Jets",
  year="2023",
  month="June",
  pages="1--6",
  publisher="AIAA AVIATION 2023 Forum",
  address="San Diego, CA"
}